Abstract
The effect of surface roughness on developed laminar flow in microtubes is investigated. The tube boundary is defined by $${r=R\left[{1+\varepsilon\, {\rm sin}\left( {\lambda \theta }\right)}\right]}$$ , with R representing the reference radius and $${\varepsilon}$$ and λ the roughness parameters. The momentum equation is solved using Fourier–Galerkin–Tau method with slip at the boundary. A novel semi-analytical method is developed to predict friction factor and pressure drop in corrugated rough microtubes for continuum flow and slip flow that are not restricted to small values of $${\varepsilon \lambda }$$ . The analytical solution collapses onto the perturbation solution ofDuan and Muzychka (J. Fluids Eng., 130:031102, 2008) for small enough values of $${\varepsilon \lambda }$$ .
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